应用光学
應用光學
응용광학
JOURNAL OF APPLIED OPTICS
2014年
6期
976-980
,共5页
何跃宏%佘磊%陈义和%李交美
何躍宏%佘磊%陳義和%李交美
하약굉%사뢰%진의화%리교미
原子与分子物理学%光学设计%光学激发系统%荧光收集系统
原子與分子物理學%光學設計%光學激髮繫統%熒光收集繫統
원자여분자물이학%광학설계%광학격발계통%형광수집계통
atomic and molecular physics%optical design%optical excitation system%fluores-cence collection system
利用Zemax软件为线形离子阱囚禁199 Hg+实验设计了一套光学系统,该系统包括两部分,即光学激发系统和荧光收集系统。光学激发系统由202 H g无极谱灯和激发透镜组组成。激发透镜组将202 Hg无极谱灯的直径为15 mm的圆形面光源整形成23 mm ×4 mm的矩形光去激发199 H g+能级跃迁,从而使其辐射出荧光,再利用荧光收集系统去收集该荧光。荧光收集系统由收集透镜组、滤波片和光电倍增管组成。设计结果表明:该收集透镜组可以很好地将荧光发光面成像在直径为23 m m的光电倍增管上,具有较高的荧光收集效率,约3%。经物理系统实验,结果表明,该光学系统满足实验要求且具有较高的信噪比,其值约为20。这为高性能线形199 H g+微波频标的工程应用提供了基础。
利用Zemax軟件為線形離子阱囚禁199 Hg+實驗設計瞭一套光學繫統,該繫統包括兩部分,即光學激髮繫統和熒光收集繫統。光學激髮繫統由202 H g無極譜燈和激髮透鏡組組成。激髮透鏡組將202 Hg無極譜燈的直徑為15 mm的圓形麵光源整形成23 mm ×4 mm的矩形光去激髮199 H g+能級躍遷,從而使其輻射齣熒光,再利用熒光收集繫統去收集該熒光。熒光收集繫統由收集透鏡組、濾波片和光電倍增管組成。設計結果錶明:該收集透鏡組可以很好地將熒光髮光麵成像在直徑為23 m m的光電倍增管上,具有較高的熒光收集效率,約3%。經物理繫統實驗,結果錶明,該光學繫統滿足實驗要求且具有較高的信譟比,其值約為20。這為高性能線形199 H g+微波頻標的工程應用提供瞭基礎。
이용Zemax연건위선형리자정수금199 Hg+실험설계료일투광학계통,해계통포괄량부분,즉광학격발계통화형광수집계통。광학격발계통유202 H g무겁보등화격발투경조조성。격발투경조장202 Hg무겁보등적직경위15 mm적원형면광원정형성23 mm ×4 mm적구형광거격발199 H g+능급약천,종이사기복사출형광,재이용형광수집계통거수집해형광。형광수집계통유수집투경조、려파편화광전배증관조성。설계결과표명:해수집투경조가이흔호지장형광발광면성상재직경위23 m m적광전배증관상,구유교고적형광수집효솔,약3%。경물리계통실험,결과표명,해광학계통만족실험요구차구유교고적신조비,기치약위20。저위고성능선형199 H g+미파빈표적공정응용제공료기출。
An optical system for trapped 199 Hg+ in linear ion trap was designed by the Zemax software .The optical system consists of two parts which are optical excitation system and flu‐orescence collection system .The optical excitation system is composed of 202 Hg electrodeless lamp and excitation lens system .The diameter of 15 mm surface light which is produced by 202 Hg electrodeless lamp is transformed into rectangular light of 23 mm × 4 mm by the excita‐tion lens system .The rectangular light excites 199 Hg+ atomic transition and then the 199 Hg+radiates fluorescence .T he fluorescence is collected by the fluorescence collection system w hich is composed of collection lens system ,filter and photomultiplier tube (PM T ) .The design re‐sults show that the fluorescence emitting surface is imaged well in the PMT whose diameter is 23 mm by the collection lens system .So the fluorescence collection is quite efficient and the collection efficiency is about 3% .Experimental results show that the optical system is com‐pletely satisfied for present experiment and it has a high signal to noise ratio (SNR) which is about 20 . It makes necessary preparation for application of high‐performance 199 Hg+ microwave frequency standard .